Mark W. Geraci scite author profile

Sepsis, a systemic inflammatory response to infection, commonly progresses to acute lung injury (ALI), an inflammatory lung disease with high morbidity. We postulated that sepsis-associated ALI is initiated by degradation of the pulmonary endothelial glycocalyx, leading to neutrophil adherence and inflammation. Using intravital microscopy, we found that endotoxemia in mice rapidly induced pulmonary microvascular glycocalyx degradation via tumor necrosis factor-α (TNF-α)-dependent mechanisms. Glycocalyx degradation involved the specific loss of heparan sulfate and coincided with activation of endothelial heparanase, a TNF-α–responsive, heparan sulfate–specific glucuronidase. Glycocalyx degradation increased the availability of endothelial surface adhesion molecules to circulating microspheres and contributed to neutrophil adhesion. Heparanase inhibition prevented endotoxemia-associated glycocalyx loss and neutrophil adhesion and, accordingly, attenuated sepsis-induced ALI and mortality in mice. These findings are potentially relevant to human disease, as sepsis-associated respiratory failure in humans was associated with higher plasma heparan sulfate degradation activity; moreover, heparanase content was higher in human lung biopsies showing diffuse alveolar damage than in normal human lung tissue.

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Prostacyclin Synthase Expression Is Decreased in Lungs from Patients with Severe Pulmonary Hypertension

Tuder

Cool²,

Geraci³

et al. 1999

Am J Respir Crit Care Med

717

417

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Prostacyclin is a powerful vasodilator and inhibits platelet adhesion and cell growth. We hypothesized that a decrease in expression of the critical enzyme PGI2 synthase (PGI2-S) in the lung may represent an important manifestation of pulmonary endothelial dysfunction in severe pulmonary hypertension (PH). Immunohistochemistry and Western blot analysis were used to assess lung PGI2-S protein expression, and in situ hybridization was used to assess PGI2-S mRNA expression. In the normal pulmonary circulation (n = 7), PGI2-S was expressed in 48% of small, 67% of medium, and 76% of large pulmonary arteries as assessed by immunohistochemistry. PPH (n = 12), cirrhosis-associated (n = 4) and HIV-associated PH (n = 2) lungs exhibited a marked reduction in PGI2-S expression, involving all size ranges of pulmonary arteries. Vessels with concentric lesions showed complete lack of PGI2-S expression. Congenital heart (n = 4) and CREST (n = 2) cases exhibited a more variable immunohistological pattern of PGI2-S expression. These results were complemented by in situ hybridization and Western blots of representative lung samples. We conclude that the different sizes of the pulmonary arteries express PGI2-S differently and that the loss of expression of PGI2-S represents one of the phenotypic alterations present in the pulmonary endothelial cells in severe PH.

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Genetics and Genomics of Pulmonary Arterial Hypertension

Machado¹,

Eickelberg²,

Elliott³

et al. 2009

Journal of the American College of Cardiology

347

314

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Pulmonary arterial hypertension (PAH) is a rare disorder that may be hereditable (HPAH), idiopathic (IPAH), or associated with either drug-toxin exposures or other medical conditions. Familial cases have long been recognised and are usually due to mutations in Bone Morphogenetic Protein Receptor type 2 gene (BMPR2), or, much less commonly, 2 other members of the transforming growth factor-beta superfamily, Activin-like Kinase-Type I (ALK1) and Endoglin (ENG), which are associated with hereditary hemorrhagic telangiectasia. In addition, approximately 20% of patients with IPAH carry mutations in BMPR2. We provide a summary of BMPR2 mutations associated with IPAH/HPAH, most of which are unique to each family and are presumed to result in loss of function. We review the finding of missense variants and variants of unknown significance in BMPR2 in IPAH/HPAH, fenfluramine exposure, and PAH associated with congenital heart disease. Clinical testing for BMPR2 mutations is available and may be offered to HPAH and IPAH patients but should be preceded by genetic counselling, since lifetime penetrance is only 10%–20%, and there are currently no known effective preventative measures. Identification of a familial mutation can be valuable in reproductive planning and identifying family members who are not mutation carriers and thus will not require lifelong surveillance. With advances in genomic technology and with international collaborative efforts, genome-wide association studies will be conducted to identify additional genes for HPAH, genetic modifiers for BMPR2 penetrance, and genetic susceptibility to IPAH. In addition, collaborative studies of BMPR2 mutation carriers should enable identification of environmental modifiers, biomarkers for disease development and progression, and surrogate markers for efficacy end points in clinical drug development, thereby providing an invaluable resource for trials of PAH prevention.

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Prostacyclin-mediated activation of peroxisome proliferator-activated receptor δ in colorectal cancer

Gupta

Tan

Krause

et al. 2000

Proc. Natl. Acad. Sci. U.S.A.

377

273

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There is evidence from both genetic and pharmacologic studies to suggest that the cyclooxygenase-2 (COX-2) enzyme plays a causal role in the development of colorectal cancer. However, little is known about the identity or role of the eicosanoid receptor pathways activated by COX-derived prostaglandins (PG). We previously have reported that COX-2-derived prostacyclin promotes embryo implantation in the mouse uterus via activation of the nuclear hormone receptor peroxisome proliferator-activated receptor (PPAR) ␦. In light of the recent finding that PPAR␦ is a target of ␤-catenin transactivation, it is important to determine whether this signaling pathway is operative during the development of colorectal cancer. Analysis of PPAR␦ mRNA in matched normal and tumor samples revealed that expression of PPAR␦, similar to COX-2, is up-regulated in colorectal carcinomas. In situ hybridization studies demonstrate that PPAR␦ is expressed in normal colon and localized to the epithelial cells at the very tips of the mucosal glands. In contrast, expression of PPAR␦ mRNA in colorectal tumors was more widespread with increased levels in transformed epithelial cells. Analysis of PPAR␦ and COX-2 mRNA in serial sections suggested they were colocalized to the same region within a tumor. Finally, transient transfection assays established that endogenously synthesized prostacyclin (PGI 2) could serve as a ligand for PPAR␦. In addition, the stable PGI2 analog, carbaprostacyclin, and a synthetic PPAR␦ agonist induced transactivation of endogenous PPAR␦ in human colon carcinoma cells. We conclude from these observations that PPAR␦, similar to COX-2, is aberrantly expressed in colorectal tumors and that endogenous PPAR␦ is transcriptionally responsive to PGI 2. However, the functional consequence of PPAR␦ activation in colon carcinogenesis still needs to be determined.

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Mark W. Geraci

The pulmonary endothelial glycocalyx regulates neutrophil adhesion and lung injury during experimental sepsis

Prostacyclin Synthase Expression Is Decreased in Lungs from Patients with Severe Pulmonary Hypertension

Genetics and Genomics of Pulmonary Arterial Hypertension

Prostacyclin-mediated activation of peroxisome proliferator-activated receptor δ in colorectal cancer

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